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Titanium Carbide Nanoparticle Dispersion

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MDL Number:


EC No.:



Titanium Carbide Nanoparticle Dispersion
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Titanium Carbide Nanoparticle Dispersion Properties

Compound Formula


Molecular Weight



Liquid dispersion


Varies by solvent

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Monoisotopic Mass

63.979248 Da



Titanium Carbide Nanoparticle Dispersion Health & Safety Information

Signal Word N/A
Hazard Statements N/A
Hazard Codes N/A
Transport Information N/A

About Titanium Carbide Nanoparticle Dispersion

Titanium Carbide Nanoparticle Dispersions are suspensions of titanium carbide nanoparticles in water or various organic solvents such as ethanol or mineral oil. American Elements manufactures compound nanopowders and nanoparticles with typical particle sizes ranging from 10 to 200nm and in coated and surface functionalized forms. Our nanodispersion and nanofluid experts can provide technical guidance for selecting the most appropriate particle size, solvent, and coating material for a given application. We can also produce custom nanomaterials tailored to the specific requirements of our customers upon request.

Titanium Carbide Nanoparticle Dispersion Synonyms

Titanium(IV) carbide, Titanium Carbide nanopowder suspension, aqueous Titanium Carbide nanoparticle solution, Titanium Carbide nanofluid

Titanium Carbide Nanoparticle Dispersion Chemical Identifiers

Linear Formula


Pubchem CID


MDL Number


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InchI Key


Packaging Specifications

Typical bulk packaging includes palletized plastic 5 gallon/25 kg. pails, fiber and steel drums to 1 ton super sacks in full container (FCL) or truck load (T/L) quantities. Research and sample quantities and hygroscopic, oxidizing or other air sensitive materials may be packaged under argon or vacuum. Shipping documentation includes a Certificate of Analysis and Safety Data Sheet (SDS). Solutions are packaged in polypropylene, plastic or glass jars up to palletized 440 gallon liquid totes, and 36,000 lb. tanker trucks.

Related Elements

See more Titanium products. Titanium (atomic symbol: Ti, atomic number: 22) is a Block D, Group 4, Period 4 element with an atomic weight of 47.867. The number of electrons in each of Titanium's shells is [2, 8, 10, 2] and its electron configuration is [Ar] 3d2 4s2. Titanium Bohr ModelThe titanium atom has a radius of 147 pm and a Van der Waals radius of 187 pm. Titanium was discovered by William Gregor in 1791 and first isolated by Jöns Jakob Berzelius in 1825. In its elemental form, titanium has a silvery grey-white metallic appearance. Titanium's properties are chemically and physically similar to zirconium, both of which have the same number of valence electrons and are in the same group in the periodic table. Elemental TitaniumTitanium has five naturally occurring isotopes: 46Ti through 50Ti, with 48Ti being the most abundant (73.8%). Titanium is found in igneous rocks and the sediments derived from them. It is named after the word Titanos, which is Greek for Titans.

Recent Research

Fabrication of graphene/titanium carbide nanorod arrays for chemical sensor application., Fu, Chong, Li Mingji, Li Hongji, Li Cuiping, Qu Changqing, and Yang Baohe , Mater Sci Eng C Mater Biol Appl, 2017 Mar 01, Volume 72, p.425-432, (2017)

Formation of Titanium Carbide (TiC) and TiC@C core-shell nanostructures by ultra-short laser ablation of titanium carbide and metallic titanium in liquid., De Bonis, Angela, Santagata Antonio, Galasso Agostino, Laurita Alessandro, and Teghil Roberto , J Colloid Interface Sci, 2017 Mar 01, Volume 489, p.76-84, (2017)

Osseointegration is improved by coating titanium implants with a nanostructured thin film with titanium carbide and titanium oxides clustered around graphitic carbon., Veronesi, Francesca, Giavaresi Gianluca, Fini Milena, Longo Giovanni, Ioannidu Caterina Alexandra, d'Abusco Anna Scotto, Superti Fabiana, Panzini Gianluca, Misiano Carlo, Palattella Alberto, et al. , Mater Sci Eng C Mater Biol Appl, 2017 Jan 01, Volume 70, Issue Pt 1, p.264-271, (2017)

Two-Dimensional Titanium Carbide MXene As a Cathode Material for Hybrid Magnesium/Lithium-Ion Batteries., Byeon, Ayeong, Zhao Meng-Qiang, Ren Chang E., Halim Joseph, Kota Sankalp, Urbankowski Patrick, Anasori Babak, Barsoum Michel W., and Gogotsi Yury , ACS Appl Mater Interfaces, 2017 Feb 08, Volume 9, Issue 5, p.4296-4300, (2017)

Solution-processed titanium carbide MXene films examined as highly transparent conductors., Mariano, Marina, Mashtalir Olha, Antonio Francisco Q., Ryu Won-Hee, Deng Bingchen, Xia Fengnian, Gogotsi Yury, and Taylor André D. , Nanoscale, 2016 Sep 15, Volume 8, Issue 36, p.16371-16378, (2016)

Atomic Defects in Monolayer Titanium Carbide (Ti3C2Tx) MXene., Sang, Xiahan, Xie Yu, Lin Ming-Wei, Alhabeb Mohamed, Van Aken Katherine L., Gogotsi Yury, Kent Paul R. C., Xiao Kai, and Unocic Raymond R. , ACS Nano, 2016 Sep 12, (2016)

Organic-Base-Driven Intercalation and Delamination for the Production of Functionalized Titanium Carbide Nanosheets with Superior Photothermal Therapeutic Performance., Xuan, Jinnan, Wang Zhiqiang, Chen Yuyan, Liang Dujuan, Cheng Liang, Yang Xiaojing, Liu Zhuang, Ma Renzhi, Sasaki Takayoshi, and Geng Fengxia , Angew Chem Int Ed Engl, 2016 Nov 14, Volume 55, Issue 47, p.14569-14574, (2016)

Adsorption of uranyl species on hydroxylated titanium carbide nanosheet: A first-principles study., Zhang, Yu-Juan, Lan Jian-Hui, Wang Lin, Wu Qun-Yan, Wang Cong-Zhi, Bo Tao, Chai Zhi-Fang, and Shi Wei-Qun , J Hazard Mater, 2016 May 5, Volume 308, p.402-10, (2016)

Density functional study on the mechanism for the highly active palladium monolayer supported on titanium carbide for the oxygen reduction reaction., Mao, Jianjun, Li Shasha, Zhang Yanxing, Chu Xingli, and Yang Zongxian , J Chem Phys, 2016 May 28, Volume 144, Issue 20, p.204703, (2016)

Interlayer coupling in two-dimensional titanium carbide MXenes., Hu, Tao, Hu Minmin, Li Zhaojin, Zhang Hui, Zhang Chao, Wang Jingyang, and Wang Xiaohui , Phys Chem Chem Phys, 2016 May 23, (2016)


June 23, 2017
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